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W2054033384 abstract "A series of bistridentate ruthenium(II) polypyridyl-type complexes based on the novel 2,6-di(quinolin-8-yl)pyridine (dqp) ligand have been synthesized and their photophysical properties have been studied. The complexes are amenable to substitution in the 4-position of the central pyridine with conserved quasi-C2v symmetry, which allows for extension to isomer-free, rod-like molecular arrays for vectorial control of electron and energy transfer. DFT calculations performed on the parent [Ru(dqp) 2](2+) complex (1) predicted a more octahedral structure than in the typical bistridentate complex [Ru(tpy)2](2+) (tpy is 2,2':6',2-terpyridine) thanks to the larger ligand bite angle, which was confirmed by X-ray crystallography. A strong visible absorption band, with a maximum at 491 nm was assigned to a metal-to-ligand charge transfer (MLCT) transition, based on time-dependent DFT calculations. 1 shows room temperature emission (Phi = 0.02) from its lowest excited ((3)MLCT) state that has a very long lifetime (tau = 3 micros). The long lifetime is due to a stronger ligand field, because of the more octahedral structure, which makes the often dominant activated decay via short-lived metal-centered states insignificant also at elevated temperatures. A series of complexes based on dqp with electron donating and/or accepting substituents in the 4-position of the pyridine was prepared and the properties were compared to those of 1. An unprecedented (3)MLCT state lifetime of 5.5 micros was demonstrated for the homoleptic complex based on dqpCO2Et. The favorable photosensitizer properties of 1, such as a high extinction coefficient, high excited-state energy and long lifetime, and tunable redox potentials, are maintained upon substitution. In addition, the parent complex 1 is shown to be remarkably photostable and displays a high reactivity in light-induced electron and energy transfer reactions with typical energy and electron acceptors and donors: methylviologen, tetrathiofulvalene, and 9,10-diphenylanthracene. This new class of complexes constitutes a promising starting point for the construction of linear, rod-like molecular arrays for photosensitized reactions and applications in artificial photosynthesis and molecular electronics." @default.
W2054033384 created "2016-06-24" @default.
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W2054033384 date "2008-10-29" @default.
W2054033384 modified "2023-09-28" @default.
W2054033384 title "Bistridentate Ruthenium(II)polypyridyl-Type Complexes with Microsecond <sup>3</sup>MLCT State Lifetimes: Sensitizers for Rod-Like Molecular Arrays" @default.
W2054033384 cites W1901482174 @default.
W2054033384 cites W1967428363 @default.
W2054033384 cites W1970326168 @default.
W2054033384 cites W1970393749 @default.
W2054033384 cites W1970499578 @default.
W2054033384 cites W1971121555 @default.
W2054033384 cites W1972949179 @default.
W2054033384 cites W1975159473 @default.
W2054033384 cites W1975978668 @default.
W2054033384 cites W1980532895 @default.
W2054033384 cites W1984347677 @default.
W2054033384 cites W1984668192 @default.
W2054033384 cites W1988743444 @default.
W2054033384 cites W1990371673 @default.
W2054033384 cites W1990997378 @default.
W2054033384 cites W1992185348 @default.
W2054033384 cites W1993821628 @default.
W2054033384 cites W1999014125 @default.
W2054033384 cites W2001277223 @default.
W2054033384 cites W2009542925 @default.
W2054033384 cites W2010363805 @default.
W2054033384 cites W2014359814 @default.
W2054033384 cites W2015465621 @default.
W2054033384 cites W2015496655 @default.
W2054033384 cites W2015652110 @default.
W2054033384 cites W2016738144 @default.
W2054033384 cites W2023271753 @default.
W2054033384 cites W2028723947 @default.
W2054033384 cites W2031022656 @default.
W2054033384 cites W2034445094 @default.
W2054033384 cites W2034546619 @default.
W2054033384 cites W2034858040 @default.
W2054033384 cites W2037636027 @default.
W2054033384 cites W2039816140 @default.
W2054033384 cites W2047046225 @default.
W2054033384 cites W2047207023 @default.
W2054033384 cites W2054422942 @default.
W2054033384 cites W2062109666 @default.
W2054033384 cites W2063979378 @default.
W2054033384 cites W2065289609 @default.
W2054033384 cites W2065889201 @default.
W2054033384 cites W2082726978 @default.
W2054033384 cites W2086044791 @default.
W2054033384 cites W2086313950 @default.
W2054033384 cites W2103218094 @default.
W2054033384 cites W2113813397 @default.
W2054033384 cites W2114683411 @default.
W2054033384 cites W2125579691 @default.
W2054033384 cites W2135960212 @default.
W2054033384 cites W2141010893 @default.
W2054033384 cites W2143981217 @default.
W2054033384 cites W2146257230 @default.
W2054033384 cites W2151003442 @default.
W2054033384 cites W2167450294 @default.
W2054033384 cites W2312570034 @default.
W2054033384 cites W2317095565 @default.
W2054033384 cites W2317604061 @default.
W2054033384 cites W2321691397 @default.
W2054033384 cites W2502302781 @default.
W2054033384 cites W2949485030 @default.
W2054033384 cites W2951794441 @default.
W2054033384 cites W3022457912 @default.
W2054033384 cites W4244143738 @default.
W2054033384 doi "https://doi.org/10.1021/ja804890k" @default.
W2054033384 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19006410" @default.
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